CN111411180A - Fur cutting machine - Google Patents

Abstract

The invention discloses a fur cutting machine, which structurally comprises: the invention realizes the matching of the line-spacing tube cylinder liner seat and the laser lamp panel, so that the heat extraction tube rack and the beam tube extraction tube realize the anti-thermal power suction effect at the laser output end, when the laser vertically cuts the fur, the heat ensures the constant temperature of the atmosphere, the material is prevented from being scalded after cutting, the buoy angular distance plate of the rotating frame ball cylinder body is matched with the propelling of the linear velocity of the vertical light beam to form the gradient measurement of the angular velocity, the accuracy of the coordinate propelling precision is guaranteed, the positioning efficiency of the whole fur cutting edge to scan the rotating disc is also improved, the laser cutting distance and the fur heating detection are conveniently guaranteed, the laser head can be turned off by automatically feeding back an electric signal when the heat value is too high, and the reverse thermal power is pumped and flows back to the cylinder pressure, so that a good heat insulation and separation processing effect can be formed by matching transverse exhaust with longitudinal pumping.

Description

Fur cutting machine

Technical Field

The invention relates to a fur cutting machine, and belongs to the field of automation equipment.

Background

Fur is the dress raw materials of cutting out into of clothing such as leather and ermine fine hair, has better skin sense and thickness of hugging closely to defending against the wind cold-proof, ensures people's cold-proof importance of dressing, and the cutting apart of fur raw materials is the important link of whole fur flow direction of packaging line, and the fur after cutting apart needs to sew up according to cutting apart the size and processes into the clothing and supply people to use, and the fur surface fabric generally uses extensively, and the public shortcoming of treating the optimization of prior art has:

the leather material of fur receives laser to cut and scalds the surface that can produce the curling burnt black in border, influence whole fur's surface smoothness degree and gloss sense, cause the sewing up after the fur later stage is cut apart to make the clothing and still must cut out partial leftover bits, the extravagant material, and cut apart the working effect and still must the secondary truing, slow down the efficiency of fur flow direction of packaging line, lead to holistic fur material to obtain perfect cutting processing, the calorific value to the laser cutting equipment's coordinate displacement and laser outlet produces the condition that finished product material quality reduces, cause whole mechanical equipment to cause the scald phenomenon to the border thickness of leather face quality.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a fur cutting machine, which solves the problems that leather materials of fur are cut and ironed by laser to generate a curled and scorched surface at the edge, the surface smoothness and luster of the whole fur are influenced, the leftover materials of the cut part of clothes are needed to be sewn after the fur is cut at the later stage, the materials are wasted, the cutting work effect is refined for the second time, the efficiency of a fur processing line is retarded, the whole fur materials cannot be completely cut, the quality of finished products is reduced due to the coordinate displacement of laser cutting equipment and the heat value of a laser outlet, and the edge thickness of the fur quality is scalded and damaged by the whole mechanical equipment.

In order to achieve the purpose, the invention is realized by the following technical scheme: a fur cutting machine, its structure includes: distribution base case, truss track, transmission chain belt, relay slot seat, line distance pipe jar liner seat, laser lamp plate, work transmission platform, line distance pipe jar liner seat hugs closely in the rear side of laser lamp plate and is in on same vertical face, line distance pipe jar liner seat nestification is in the front side of relay slot seat, the relay slot seat passes through the transmission chain belt and is connected with truss track machinery and be in on same horizontal plane, the truss track is installed on the top of work transmission platform and is parallel to each other, the work transmission platform nestification is on the top of distribution base case, distribution base case passes through the wire and is connected with relay slot seat electricity, truss track and work transmission platform swing joint, line distance pipe jar liner seat is equipped with heat suction pipe support, bundle section of thick bamboo extraction tube, holds gas thrust groove, swivel bracket ball cylinder body, front end housing, facing slab, exhaust louver and installs the groove, heat suction pipe support is in the right side of bundle section of thick bamboo extraction tube and is parallel to each other, the gas storage pushing and pressing groove is inserted in the rotary frame ball cylinder body and located on the same vertical face, the rotary frame ball cylinder body is nested on the top of the beam tube extraction tube and communicated with the beam tube extraction tube, the rotary frame ball cylinder body is installed on the top of the front end cover shell, the front end cover shell is tightly attached to the right side of the lining thick block and located on the same vertical face, the exhaust louver groove is nested on the left side of the rotary frame ball cylinder body and communicated with the rotary frame ball cylinder body, and the front end cover shell is tightly attached to the rear side of the laser lamp panel and located on the same vertical face.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the hot suction pipe frame consists of a winch valve casing, a suction transverse pipe frame and a pressure-resistant beam pipe, wherein the suction transverse pipe frame is inserted in the winch valve casing and is positioned on the same horizontal plane, and the winch valve casing is provided with more than two vertical pipes which are arranged in parallel in a straight line and are all nested on the front side of the pressure-resistant beam pipe.

As a further improvement of the invention, the winch valve casing consists of an arc top square groove casing, a stand column, a hinge rod and an opposite top wheel disc, wherein the arc top square groove casing is buckled with the opposite top wheel disc through the stand column and is positioned on the same vertical surface, and the hinge rod is mechanically connected with the opposite top wheel disc.

As a further improvement of the invention, the suction horizontal pipe frame consists of narrow pipe shell covers, bearing rotary frames, an inner core pipe and spring hole laths, wherein the bearing rotary frames are arranged inside the narrow pipe shell covers, the axes of the bearing rotary frames are collinear, the narrow pipe shell covers are provided with two narrow pipe shell covers, the two narrow pipe shell covers are respectively nested on the left side and the right side of the inner core pipe, and the inner core pipe is movably connected with the spring hole laths and is positioned on the same horizontal plane.

As a further improvement of the invention, the tube bundle extraction tube consists of a long-neck through tube, a gradient pushing frame and a lifting tube bundle groove, wherein the gradient pushing frame is arranged inside the lifting tube bundle groove and is positioned on the same vertical surface, and the lifting tube bundle groove and the long-neck through tube are in interference fit.

As a further improvement of the invention, the gradient pushing frame consists of a bow frame rod, a filler strip, a spacing cross rod and a nylon tubule frame, wherein the filler strip is more than two and is inserted and embedded in the bow frame rod, the spacing cross rod and the nylon tubule frame are embedded into a whole and are positioned on the same horizontal plane, and the spacing cross rod is more than two and is respectively inserted and embedded at the left side and the right side of the bow frame rod.

As a further improvement of the invention, the rotating frame ball cylinder body consists of a ball cylinder inner cavity, a buoy angular distance plate and an axis rod, wherein the buoy angular distance plate is mechanically connected with the axis rod and is vertical to the axis rod, and the buoy angular distance plate and the axis rod are both arranged inside the ball cylinder inner cavity and are collinear in axis.

As a further improvement of the invention, the float angular distance plate is composed of a paddle fan plate, a chute frame, a float seat block and a convex arc buckling groove, the paddle fan plate and the chute frame are integrated and are positioned on the same vertical surface, the chute frame and the float seat block are in clearance fit, and the convex arc buckling groove is inserted and embedded under the bottom of the paddle fan plate.

As a further improvement of the invention, the opposite top wheel disc is a disc stacking frame structure with belt wheels at the upper left corner and the lower right corner and with opposite top friction, so that the pumping balance degree of the hinging and pressing through holes is conveniently improved during rolling collision, and the heat pumping anti-coking effect of the integral laser cutting fur is ensured.

As a further improvement of the invention, the spring hole batten is of a batten structure with upper and lower inclined-tooth-shaped middle sleeve buckle frame rings, the drawing of the overlapping toughness of the spring wires in the insection is ensured, a suction telescopic port is formed at a frame opening, and the uniform row inflow effect of air flow is ensured.

As a further improvement of the invention, the nylon tubule frame is of a tubule frame structure with a thick wheel ring and a narrow tube in the middle, so that the ductility and the traction of the tubule can be greatly reduced when the collision wheel body is locked, and the continuity of laser hot air extraction is guaranteed.

As a further improvement of the invention, the buoy seat block is a combined slide block structure with an oval floating plate at the top and a concave buckling rod floating ball at the bottom, so that the detection effect of transverse movement and up-and-down fluctuation of a movable coil is conveniently formed by the difference position gap between the high floating plate and the floating ball.

Advantageous effects

The invention relates to a fur cutting machine, which is characterized in that a worker starts a power distribution base box to supply power to a truss track and a transmission chain belt to transversely move and draw a relay groove seat to drive a linear distance tube cylinder lining seat and a laser lamp plate to process fur, then the fur is placed on a working transmission table to ensure the precision of coordinate propulsion displacement processing, then a winch valve shell lock catch of a heat pumping tube frame is used for pumping the transverse tube frame to form the heat absorption effect of contraposition laser rays on the front side and the rear side of a compression-resistant beam tube, an upright post lock catch in an arc top square groove shell is twisted on the front side of an inner core tube and a spring hole batten in cooperation with a hinge rod to form the operation effects of torsional pressure difference and air pressure difference, the rotation balance of a bearing rotating frame in a narrow tube shell is ensured, the sucked heat value enters a beam tube extraction tube to be conducted to a gas storage pushing groove, then an inner cavity inner core rod in a ball cylinder of a rotating frame ball cylinder body drives a buoy angular distance plate to rotate along the axial rod, make buoy seat piece form one along gas buoyancy about line distance impel make the spacing effect of adaptation regulation of wheel rotation angle, the guarantee corrects the fur border after cutting apart and detects, prevents that the burnt black from curling, after the guarantee front end housing body pressfitting facing slab adjusted exhaust tripe groove top layer well and got rid of steam, the fur heat degree of bottom reduces, promotes the stability of processing temperature, the guarantee laser is cut apart the completeness of fur processing maintenance material.

The invention has the following advantages after operation:

the line-distance pipe cylinder liner seat is matched with the laser lamp panel, the laser lamp panel is linked with the rotary frame ball cylinder body to work when emitting laser to cut the fur, so that the heat pumping pipe frame and the beam tube extraction pipe realize the reverse thermal power pumping effect at the laser output end, and pumped heat can be discharged outside through the exhaust louver groove, after the heat dissipation is carried out on the top of the fur, when the fur is vertically divided by laser, the heat ensures the constant temperature of the atmosphere, the rolling materials are prevented from being scalded after the cutting, the buoy angular distance plate of the rotating frame ball cylinder body is matched with the propelling of the linear velocity of the vertical light beam to form the gradient measurement of the angular velocity, the accuracy of the coordinate propelling precision is guaranteed, the positioning efficiency of the whole fur cutting edge to scan the rotating disc is also improved, the laser cutting distance and the fur heating detection are conveniently guaranteed, the laser head can be turned off by automatically feeding back an electric signal when the heat value is too high, and the reverse thermal power is pumped and flows back to the cylinder pressure, so that a good heat insulation and separation processing effect can be formed by matching transverse exhaust with longitudinal pumping.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural view of a fur cutting machine according to the present invention.

FIG. 2 is a detailed schematic side sectional view of the cylinder body of the line spacing pipe cylinder liner seat, the heat suction pipe frame, the beam barrel extraction pipe and the rotating frame ball of the invention.

Fig. 3 is a side sectional enlarged view of the winch valve casing in the working state.

Fig. 4 is a side-sectional and inner-view structural schematic diagram of the working state of the suction horizontal pipe rack of the invention.

FIG. 5 is a schematic side view of the gradient pushing frame according to the present invention in an enlarged manner.

FIG. 6 is an enlarged side cross-sectional view of the float angle spacer of the present invention in an operational state.

Description of reference numerals: a power distribution base seat box-1, a truss track-2, a transmission chain belt-3, a relay slot seat-4, a linear distance tube cylinder lining seat-5, a laser lamp panel-6, a work transmission platform-7, a heat suction tube rack-5A, a beam tube extraction tube-5B, a gas storage push slot-5C, a rotating rack ball cylinder body-5D, a front end cover shell-5E, a lining thick block-5F, an exhaust louver slot-5G, a winch valve shell-5A 1, a suction horizontal tube rack-5A 2, a compression-resistant beam tube-5A 3, an arc top square slot shell-5A 11, an upright post-5A 12, a hinge rod-5A 13, a butt rotary wheel disc-5A 14, a narrow tube shell cover-5A 21, a bearing rotary rack-5A 22, an inner core tube-5A through tube 23, a spring hole-5A 24, a long neck-5B 1, a laser beam, The device comprises a gradient pushing frame-5B 2, a lifting barrel bundling groove-5B 3, a bow-shaped frame rod-5B 21, a filler strip-5B 22, a spacer cross bar-5B 23, a nylon tubule frame-5B 24, a ball cylinder inner chamber-5D 1, a buoy angle distance plate-5D 2, an axis rod-5D 3, a paddle fan plate-5D 21, a sliding groove frame-5D 22, a buoy seat block-5D 23 and a convex arc catching groove-5D 24.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1 to 6, the present invention provides a fur cutting machine, which comprises: distribution base case 1, truss track 2, transmission chain belt 3, relay slot seat 4, line distance pipe jar liner 5, laser lamp plate 6, work transmission platform 7, line distance pipe jar liner 5 hugs closely in the rear side of laser lamp plate 6 and is in on same vertical face, line distance pipe jar liner 5 nests in the front side of relay slot seat 4, relay slot seat 4 is through transmission chain belt 3 and truss track 2 mechanical connection and be in on same horizontal plane, truss track 2 installs on the top of work transmission platform 7 and is parallel to each other, work transmission platform 7 nests on the top of distribution base case 1, distribution base case 1 passes through the wire and is connected with relay slot seat 4 electricity, truss track 2 and work transmission platform 7 swing joint, line distance pipe jar liner 5 is equipped with heat extraction pipe support 5A, bundle section of thick bamboo extraction tube 5B, holds gas and pushes away pressure groove 5C, The laser lamp comprises a rotary frame ball cylinder body 5D, a front end cover shell 5E, a lining thick block 5F and an exhaust louver groove 5G, wherein the heat pumping pipe frame 5A is arranged on the right side of a beam tube extraction tube 5B and is parallel to each other, the air storage pushing groove 5C is inserted and embedded in the rotary frame ball cylinder body 5D and is located on the same vertical surface, the rotary frame ball cylinder body 5D is embedded and embedded on the top of the beam tube extraction tube 5B and is communicated with each other, the rotary frame ball cylinder body 5D is installed on the top of the front end cover shell 5E, the front end cover shell 5E is tightly attached to the right side of the lining thick block 5F and is located on the same vertical surface, the exhaust louver groove 5G is embedded and communicated with the left side of the rotary frame ball cylinder body 5D, and the front end cover shell 5E is tightly attached to the rear side of a laser lamp plate 6 and is located on the same vertical.

Referring to fig. 2, the hot suction pipe rack 5A is composed of a winch valve housing 5A1, a suction cross pipe rack 5A2, and a pressure-resistant beam tube 5A3, the suction pipe crossing frame 5a2 is inserted into the inside of the winch valve casing 5a1 and is on the same level, the winch valve casing 5A1 is provided with more than two vertical pipes which are arranged in a straight line and are all nested at the front side of the pressure-resistant beam tube 5A3, the rotating frame ball cylinder body 5D consists of a ball cylinder inner chamber 5D1, a buoy angle distance plate 5D2 and an axis rod 5D3, the buoy angle distance plate 5D2 and the axle center rod 5D3 are mechanically connected and are perpendicular to each other, the buoy angle distance plate 5D2 and the axle center rod 5D3 are both arranged inside the ball cylinder inner cavity 5D1 and are collinear in axle center, the whole laser heat value heat dissipation and suction effect is formed by matching the ball cylinder inner chamber 5D1 with the pressure-resistant beam tube 5A3, and internal combustion hot pressing can effectively adapt to differential pressure suction, and the reduction of the laser cutting processing heat value is guaranteed.

Referring to fig. 3, the winch valve housing 5a1 is composed of an arc top square groove housing 5a11, a stand column 5a12, a hinge rod 5a13, and an opposite top wheel disc 5a14, the arc top square groove housing 5a11 is buckled with the opposite top wheel disc 5a14 through the stand column 5a12 and is located on the same vertical surface, the hinge rod 5a13 is mechanically connected with the opposite top wheel disc 5a14, the opposite top wheel disc 5a14 is a disc-folding frame structure with pulley discs at the upper left corner and the lower right corner and in opposite friction, so that the suction balance degree of a hinge through hole is improved during rolling collision, the heat-pumping anti-coking effect of the whole laser-divided fur is ensured, and the hinge rod 5a13 is used for torsion balance in the opposite top wheel disc 5a14, so as to form a suction boosting effect of twisting air pressure.

Referring to fig. 4, the sucking cross tube rack 5a2 comprises a narrow tube housing cover 5a21, a bearing rotating rack 5a22, an inner core tube 5a23, and a spring hole strip plate 5a24, the bearing slewing frame 5A22 is arranged in the narrow tube shell cover 5A21 and the axes are collinear, the narrow tube shell covers 5A21 are provided with two and are respectively nested at the left and right sides of the inner core tube 5A23, the inner core tube 5a23 is movably connected to the spring hole slat 5a24 and is on the same horizontal plane, the spring hole lath 5A24 is a lath structure with upper and lower oblique tooth-shaped middle sleeve buckle frame rings, ensures the traction of the overlapping toughness of the spring wires in the insection, leads the frame opening to form an absorbing telescopic port, ensures the uniform and in-row inflow effect of the air flow, the inclined line stretching matching shrinkage cavity of the spring hole strip plate 5A24 in the inner core pipe 5A23 forms a suction disc type negative pressure effect, and the high-temperature shock drop balance effect on the whole segmentation rack is guaranteed.

Referring to fig. 6, the float angle distance plate 5D2 is composed of a paddle fan plate 5D21, a sliding slot frame 5D22, a float seat block 5D23, and a convex arc buckle slot 5D24, the paddle fan panel 5D21 is integral with the chute frame 5D22 and is in the same vertical plane, the sliding groove frame 5D22 and the buoy seat block 5D23 adopt clearance fit, the convex arc buckling groove 5D24 is inserted and embedded under the bottom of the paddle fan plate 5D21, the buoy seat block 5D23 is a combined slide block structure with an oval floating plate at the top and a concave buckling rod floating ball at the bottom, so that the detection effect of transverse movement and up-and-down fluctuation of a movable coil is formed conveniently by the difference gap between the high floating plate and the floating ball, the buoy seat block 5D23 is driven to form a positioning buoyancy force capable of sliding transversely and longitudinally through the rotation of the chute frame 5D22, the detection scanning effect of the edge of the cut fur is guaranteed to be corrected, the maintenance degree of the pouring-scalding-resistant curled edge is improved, and the stability of laser cutting is guaranteed.

The working process is as follows: a worker starts a power distribution base box 1 to supply power to a truss track 2 and a transmission chain belt 3 to transversely move a traction relay groove seat 4 to drive a linear distance tube cylinder liner seat 5 and a laser lamp panel 6 to process fur, then the fur is placed on a work transmission table 7 to ensure the precision of coordinate propulsion displacement processing, then a winch valve casing 5A1 lock catch of a heat suction tube rack 5A is used for sucking the cross tube rack 5A2 to form the heat absorption effect of contraposition laser rays on the front side and the rear side of a pressure-resistant beam tube 5A3, an upright post 5A12 lock catch in an arc top square groove shell 5A11 is used for twisting a jacking wheel disc 5A14 in cooperation with a hinge rod 5A13 and twisting the front side of an inner core tube 5A23 and a spring hole ribbon board 5A24 to form the operation effect of torsional pressure difference and air pressure difference, the rotation balance of a bearing rotation frame 5A22 in a narrow tube shell cover 5A21 is ensured, the sucked heat value enters a beam tube extraction tube 5B to be conducted to an air storage pushing groove 5C, and then passes through an inner shaft 637D chamber ball 5D 5395D 3 in a cylinder chamber 5395D, the paddle fan plate 5D21 and the chute frame 5D22 drag the sliding inner fuel gas pressure flow along the convex arc catching groove 5D24, the buoy seat block 5D23 forms an up-down line distance along the gas buoyancy force to push to enable the adaptation of the wheel rotation angle to adjust the limiting effect, the fur edge after the division is corrected is ensured to be detected, the scorching and curling are prevented, the heat degree of the fur at the bottom is reduced after the front end cover shell 5E pressing gasket thick block 5F is aligned to the top layer of the exhaust louver groove 5G to remove the hot gas, the stability of the processing temperature is improved, and the completeness of the laser division of the fur processing and maintenance materials is ensured.

Example two:

referring to fig. 1 to 6, the present invention provides a fur cutting machine, which is otherwise the same as embodiment 1 except that:

referring to fig. 2, the tube bundle extracting tube 5B is composed of a long-neck through tube 5B1, a gradient pushing frame 5B2, and a lifting tube bundle groove 5B3, the gradient pushing frame 5B2 is installed inside the lifting tube bundle groove 5B3 and is located on the same vertical plane, the lifting tube bundle groove 5B3 and the long-neck through tube 5B1 are in interference fit, and the gradient pushing frame 5B2 is elastically pressed in the lifting tube bundle groove 5B3 to form a sliding force which is pushed up and down, so that the counterweight is pressed to lift hot air efficiently.

Referring to fig. 5, the gradient pushing frame 5B2 is composed of a bow-shaped frame rod 5B21, a pad strip 5B22, a spacer cross rod 5B23 and a nylon thin-tube frame 5B24, the pad strip 5B22 is provided with more than two and is inserted into the bow-shaped frame rod 5B21, the spacer cross rod 5B23 and the nylon thin-tube frame 5B24 are embedded into a whole and are located on the same horizontal plane, the spacer cross rod 5B23 is provided with more than two and is inserted into the left side and the right side of the bow-shaped frame rod 5B21, the nylon thin-tube frame 5B24 is a thin-tube frame structure with a thick wheel ring on the left side and the right side and provided with a narrow tube on the middle, so that the ductility and the traction degree of the thin tube can be greatly reduced when the wheel body is locked, the continuity of laser extraction can be guaranteed, the angular pressing of the bow-shaped frame 5B21 and the nylon thin-tube frame 5B24 can be used to guarantee the rapid gradient degree and promote the.

Through the intercommunication of front end suction calorific value pipeline, make the bundle section of thick bamboo extraction tube 5B of adapting pipe peg graft the cylinder body through long neck siphunculus 5B1 after, let gradient push frame 5B2 in promoting bundle section of thick bamboo groove 5B3 through bow hack lever 5B21 flick filler strip 5B22 alternately to the top nylon tubule support 5B24 support in propping horizontal pole 5B23 the guarantee alternately shrink flick effect, form the sliding action force of a ladder frame propelling movement, let holistic suction calorific value can fully link up whole pipeline, and improve the laser overheat phenomenon, promote the heat transfer effect of pipeline intercommunication.

The invention uses the combination of the above parts to achieve the aim of matching the linear distance tube cylinder liner seat 5 with the laser lamp panel 6, and the laser lamp panel 6 is linked with the rotating frame ball cylinder body 5D to work when emitting laser to divide fur, so that the heat extraction tube frame 5A and the beam barrel extraction tube 5B realize the reverse thermal power suction effect at the laser output end, and the sucked heat can be discharged outside through the exhaust louver groove 5G, after the heat dissipation is carried out at the top of the fur, when the laser divides the fur vertically, the heat degree ensures the atmosphere constant temperature, the rolling material is avoided after cutting, the buoy angular distance plate 5D2 of the rotating frame ball cylinder body 5D forms the gradient measurement of the angular speed by matching with the advancing of the linear speed of the vertical light beam, the accuracy of the coordinate advancing precision is ensured, the positioning efficiency of the whole fur dividing edge to scan the rotary table is also improved, the laser dividing distance and the fur are convenient to be heated and detected, the heat value is too high, and the laser, the anti-thermal power suction backflow cylinder pressure can form a good heat insulation segmentation processing effect by matching transverse exhaust with longitudinal suction, so that the problems that the leather material of the fur is cut and ironed by laser to generate a curled and blackish surface at the edge, the surface smoothness and luster of the whole fur are influenced, the sewing of the divided fur at the later stage is made into clothes, and the leftover materials of the cutting part are needed to be cut are avoided, the materials are wasted, the segmentation working effect is refined for the second time, the efficiency of the fur processing production line is retarded, the whole fur material cannot be perfectly cut, the coordinate displacement of the laser cutting equipment and the heat value of a laser outlet generate the condition that the quality of the finished product material is reduced, and the edge thickness of the fur quality is damaged by the whole mechanical equipment are solved.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (8)

1. A fur cutting machine, its structure includes: distribution base case (1), truss track (2), transmission chain belt (3), relay groove seat (4), line distance pipe jar lining seat (5), laser lamp plate (6), work transmission platform (7), its characterized in that:

the line-distance pipe cylinder liner seat (5) is tightly attached to the rear side of the laser lamp panel (6), the line-distance pipe cylinder liner seat (5) is nested on the front side of the relay groove seat (4), the relay groove seat (4) is mechanically connected with the truss track (2) through a transmission chain belt (3), the truss track (2) is installed on the top of a work transmission platform (7), the work transmission platform (7) is nested on the top of the power distribution base box (1), the power distribution base box (1) is electrically connected with the relay groove seat (4) through a wire, and the truss track (2) is movably connected with the work transmission platform (7);

the linear tube cylinder lining seat (5) is provided with a heat pumping tube frame (5A), a bundle tube extraction tube (5B), an air storage pushing groove (5C), a rotating frame ball cylinder body (5D), a front end cover shell (5E), a lining thick block (5F) and an exhaust louver groove (5G);

hot suction tube support (5A) is installed on the right side of beam tube extraction pipe (5B), hold gas thrust groove (5C) and insert the inside of inlaying in revolving stage ball cylinder body (5D), revolving stage ball cylinder body (5D) nestification is on the top of beam tube extraction pipe (5B), revolving stage ball cylinder body (5D) is installed on the top of front end housing body (5E), front end housing body (5E) hugs closely in the right side of facing slab (5F), exhaust louver groove (5G) nests in the left side of revolving stage ball cylinder body (5D), front end housing body (5E) hugs closely in the rear side of laser lamp plate (6).

2. A fur divider as recited in claim 1, wherein: hot suction tube support (5A) comprises winch valve casing (5A1), suction horizontal pipe support (5A2), resistance to compression beam tube (5A3), suction horizontal pipe support (5A2) is inserted and is inlayed in the inside of winch valve casing (5A1), winch valve casing (5A1) is equipped with the front side that two above vertical and arrange a straight line and all nest in resistance to compression beam tube (5A 3).

3. A fur divider as recited in claim 2, wherein: winch valve casing (5A1) comprises arc top side pot shell (5A11), stand (5A12), hinge depression bar (5A13), to top rim plate (5A14), arc top side pot shell (5A11) are in the same place through stand (5A12) and to top rim plate (5A14) lock, hinge depression bar (5A13) and to top rim plate (5A14) mechanical connection.

4. A fur divider as recited in claim 2, wherein: suction horizontal pipe support (5A2) comprises narrow pipe casing cover (5A21), bearing revolving rack (5A22), inner core pipe (5A23), spring hole lath (5A24), bearing revolving rack (5A22) is installed in the inside of narrow pipe casing cover (5A21), narrow pipe casing cover (5A21) are equipped with two and nest respectively in the left and right sides of inner core pipe (5A23), inner core pipe (5A23) and spring hole lath (5A24) swing joint.

5. A fur divider as recited in claim 1, wherein: restraint a section of thick bamboo extraction tube (5B) by long neck siphunculus (5B1), gradient propelling movement frame (5B2), promote and restraint a section of thick bamboo groove (5B3) and constitute, gradient propelling movement frame (5B2) are installed in the inside that promotes and restraint a section of thick bamboo groove (5B3), it cooperatees with long neck siphunculus (5B1) to promote to restraint a section of thick bamboo groove (5B 3).

6. A fur divider as recited in claim 5, wherein: gradient push frame (5B2) comprises bow frame pole (5B21), filler strip (5B22), separate and prop horizontal pole (5B23), nylon tubule frame (5B24), filler strip (5B22) are equipped with more than two and all insert the inside of inlaying in bow frame pole (5B21), separate and prop horizontal pole (5B23) and nylon tubule frame (5B24) nestification and become an organic whole, separate and prop horizontal pole (5B23) be equipped with more than two and insert the left and right sides of inlaying bow frame pole (5B21) respectively.

7. A fur divider as recited in claim 1, wherein: the rotating frame ball cylinder body (5D) is composed of a ball cylinder inner cavity (5D1), a buoy angle distance plate (5D2) and an axis rod (5D3), the buoy angle distance plate (5D2) is mechanically connected with the axis rod (5D3), and the buoy angle distance plate (5D2) and the axis rod (5D3) are both installed inside the ball cylinder inner cavity (5D 1).

8. A fur divider as recited in claim 7, wherein: the buoy angular distance plate (5D2) is composed of a paddle fan plate (5D21), a sliding groove frame (5D22), a buoy seat block (5D23) and a convex arc buckle groove (5D24), the paddle fan plate (5D21) and the sliding groove frame (5D22) are of an integral structure, the sliding groove frame (5D22) is matched with the buoy seat block (5D23), and the convex arc buckle groove (5D24) is inserted and embedded under the bottom of the paddle fan plate (5D 21).

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